Drilling-machine.



J. P. BARNES.

DRILLING MACHINE. APPLIGATION'PILED Nov. 7, 1905.

948,472. Patented Feb. 8, 1910.

8 SHEBTS-SHEET 1.

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DRILLING MACHINE.. APPLIQATION FILED Nov. 7, 1905.

948,472. Patented Feb.s,1910.

8 SHEETS-SHEET Z.

Q- @ngen for 5m new@ me@ 59)' i Saleem;

J.P.B ARNBS DRILLING MACHINE.

APPLICATION FILED NOV. 7, 1905 Patented Feb.8,1910.

a SHEETS-SHEETS.

@vih/talones J. P. BARNES.

DRILLING MACHINE.

APPLIcfAJrIoN FILED Nove?, 1905.

948,472; Petented @10.8.1910

i liL l J. P. BARNES.

DRILLING MACHINE.

APPLIOATION FILED Nov.7. 1905.

Petented Feb. 8, '1910.

8 SHEETS-SHEET 5.

J. P. BARNES. DRILLING MACHINE. APPLGATIQN FILED Nov. 71905.

948,472. Patented Feb.8,191o.

8 SHEETS-SHEET e'.

J. P. BARNES.

DRILLING MACHINE. A

APPLICATION 4FILED Nov. 7, 1905.

Patented Feb. 8, 1910 8 SHEETS-SHEET 7.

J, P. BARNES.

DRILLING MACHINE.

APPLICATION FILED Nov. 7, 1905,

Patented Feb.8,1'910.

BSHBETS-SHEBT 8.

omino' STATES' PATENT onirica.

`J'OSElEI-I BARNES, OF ROCKFORD, ILLINOIS, ASSIGNOR TO W. F. & JOHN BARNES COMPANY, OF ROCKFORD, ILLINOIS, A CORPORATION F ILLINOIS.

' DRILLING-MACHINE..

Specification of Letters atent. Ilyatenlted Feb. 3,' 1910.

. Application filed November 7, 1905. Serial 110.286,171.

citizen of the United States, residing at Rockford, in the county of Winnebago and State of Illinois, `have invented certain new and useful Improvements in Drilling-Machines, of which the following is a specification.

This invention relates to improvements in machines in Vwhich the tool support is capable of a lengthwise movement in orderv that the tool may be quickly presented to the' work, a slow movement imparted to the tool while the work is being done, and a quick return of the tool to its starting position. This result is accomplishedby the employment of a double acting clutch located between two constantly rotating clutch faces, the clutch faces rotating in opposite directions, the double acting clutch having a gear connection with the tool support, and devices for limiting the diHerent movements of the tool support.

In the accompanying drawings. Figure 1 is a perspective view of my improved drilling machinewith the parts in their normal or starting position. Fig. 2 is a front elevation with the tool support lowered to a position to Vpresent the tool to the work. Fig. 3 is a front elevation showing the tool support in its lowest position and the parts in a position to begin the return movement of the tool support. Fig. 4 is a partial plan view.

Fig. 5 is a vertical section on dotted linel a port and its driving pinion.

Fig. 6. Figi 6 is a vertical central section through the-clutches and through thegearing on the feed-shaft. Fig. -7 is an inner face representation of the inner and upper portion of the tripping device. Fig. 8 is a section on dotted line b b Fig. 6. Fig. 9 is an isometrical representation of the device for determining the distance of the quick advance of the tool holder to the work. Fig. 10 is an isometrical representation of the device for determining the distance the tool will continue to work. Fig. 11 is an isometrical representation of the device for stopping the return of the tool support. Figs. 12, 13, 14 and 15 are representations ofthe tripping devices in their various positions. Fig. 16 is a vertical section of the tool sup- /Mv improvements are shown applied to ,whatisj/ known as a drill press, said drill .press comprising the main frame 1 supporting the main driving shaft 2, and the recip-l rocating sleeve 3. The bevel gears 4 and 5 form a connection between the main driving shaft and drill-spindle Vcarried by the sleeve, and as the driving shaft is constantly rotated, the tool support will also be ro-V tated.l A belt connection with the cone-'pulley 6 mounted-on the main driving shaft will impart a rotary movement to the shaft. The sleeve has a toothed rack 7 movable with it. A cross-shaft or feed shaft 8 is supported by the main frame and supports a pinion 9 which meshes with the toothed rack. A hand wheel 10 has a connection with one end `of the feed-shaft. x

A bracket is supported by the'main frame and comprises the two vertical bars 11 and 12, lower bar 13 and top bar 14. The vertical bar 12 is supported by a hub 15 extending from the main frame. An arm 16 eX- tends from the upper bar 14, and has a connection with a rod 17 extending4 from the main frame.

vertical bar. 11 of the bracket. A shaft 18 is supported bythe two vertical bars 11 and 12, and is located some distance above the feed-shaft 8 and parallel therewith.

To the cross-shaft 8 is pinned a spurtoothed pinion 19, and a worm-wheel 2O is loosely mounted on this cross-shaft. This worm-wheel `has` a face formed with sawteeth 21v forming one-half of a clutch.

On the feed-shaft 8 between the pinion 20 and worm-wheel l19' is located a sliding.

'clutch Section 22 having one face formed with saw-teeth 23 which engage the saw-` teethfof the worm-wheel' 20. This clutch sect-ion has a slidable connection with the feed-shaft by reason of the feather 231i.

A spring 24 is located'between the pinion 19 and the clutch section 22 which serves to hold the clutch section yicldingly in engagement with, the vclutch face of the wormwheel.

The lower bar 13 of the bracket is formed .with a horizontal-rectangular groove-way 25 within which is located a support 26 pivoted at the point 27 between the ears 28 extending rearward fromthelowerbarl. This support l pinion 9 connected therewith being in enlias a lengthwise central opening within which is located a shaft 29. To the center portion of this .shaft 29 secured a worin 30. and to one end of this shaft is secured a beveled toothed-wheel f3 As the worm 8O is supported in a pivotal manner, it can be moved into engagement with the worinwhccl 29 by means now to be described and can be held in such engagement. From one end of the support 2G extends an arm 32 which is located at right angles thereto. From the vertical bar 12 of the bracket eX- tends a lug 3?) to which is pivoted a latch. comprising an upper end 84, a lower hooked end $35 and a handle 86. .fr spring 87 is located between the lower bar 1? of the bracket. and the lower hooked end of the latch.

Then the worm 8O is moved into engagement with the worin-wheel 20 the arm 82 will be raised until the hooked lower end 35 of the latch receives the lower edge of the arm 32 thereby holding the worm in engagement with the worm-wheel as shown at Fig. 8.

The arm 1G supports a tubular vbearing 38 within which is located a shaft 89. To the lower end of-this shaft is secured a beveled toothed-pinion 40 held in mesh with the be vel toothed-wheel 31. To the upper end of the shaft 89 is secured a miter toothedwheel 4l. A shaft` 42 is secured in suitable bearings, to one end of which is secured a niiter toothed-wheel 43 meshing with the initer toothed-wheel 41. To the other end of this shaft 42 is secured a plate 44 having a series of concentric rings of teeth 45.

To the main driving shaft 2 is secured a toothed pinion 46. A frame'47 is mounted on the driving shaft 2, and s upports a toothed pinion 48, and a shaft 49. This shaft 49 has a toothed pinion 50 secured to it which meshes with the toothed-pinion 487 and it in turn meshes with the toothed pinion 46, thereby forming a driving connection between the main driving shaft 2 and the shaft 49.

The shaft 49 is provided with .a lengthwise groove 51, a toothedV pinion 52 has a feather connection with the groove, in order that it may be moved bodily in the lengthwise direction of the shaft so that it may be placed .in engagement with the various concentric rings of teeth 45.

Thus far described, a rotary movement is imparted to the drill-spindle by' the gear connection with the main drivin shaft 2.

By reason of the gear connection between the main driving shaft and the worm-wheel 20, when the worm 30 is in engagement with the worin-wheel7 and a connection between the worm-wheel 20 and feed-shaft 8 through the clutch faces 21 and 23 in engagement, the cross-shaft will be rotated, and the toothed gagcnient with the toothed rack 7. the

toothed rack will be moved downward toward the work, and asY the toothed rack is a part of the sleeve supporting the tool. the tool carried by the support will engage the work.

In some of the figures of the drawing` the gearing is covered. but in other figures` the gearing is shown.

To the shaft 18 is pinned a spur toothedwheel 5? which meshes with the toothed pinion 19 pinned to the feed-shaft S. This spur toothed-wheel 53 hasl a flange 54 extending from it. Upon the shaft. 18 is loosely mounted two beveled toothed-wheels .'35 and 5G facing each other.

A shaft 57 is supported in bearings 58 and 59 and is rotated by a belt that operates ou the pulley ti() connected therewith. said belt' being driven from any suitable source of power. This shaft 57 has a bevel toothed pinion (31 secured-to it which meshes with the bevel toothed-wheels 55 and 5u and which `is constantly rotated. thereby impart. ing a rotary movement to one of the bevel toothed-wheels in one direction and a rotary movement to the other bevel toothed-wheel in the opposite direction.

On the shaft 18 between the bevel toothedwheels 55 and 56 is located a clutch having the saw-toothed faces 62 and (S1-3. and a circumferential groove G4. This clutch has a sliding connection with the shaft 18 b v.the feather G5 engaging a groove in the clutch.

From the upper bar 14 of the bracket depends an arm 66 having a transverse opening within which is located a short shaft ('37. To one end of this shaftI is pinned au arm having a depending end (3S provided with a stud 69 entering the annular groove G4 of the clutch, and an uprising section 70 having a stud 7l extending Jfrom its upper end. To the other end of this short shaft 67 is pinned a bell-crank lever having one branch 72 depending from the sha ft and provided with a stud 73 entering the annular -groove G4 of the clutch, and the other branch .74 extending at substantially right angles to the-branch 72. This branch 74 supports three studs 75, 76 and 77, which are made adjustable in the direction of their length,

and held when adjusted by a set screwforl each stud.

From the free end of the branch 74 depends an arm 78 to the lower end of which is connected a spiral spring 79, the lower end of the spring being connected to a stationary part of the device. From the lower end of the arm 78 extends a wing 80 which supports a screw 81.

The flange 54 of the spur toothed-wheel supports' three rings 82, 83 and 84 shown at- Figs. 9, l() and 11. The ringl shown at F ig. 9, is split and its ends are connected by the y upper end 34 of the latch. The ring 83 isv screw 85, and by means of this screw, the ring is clamped in engagement with the flange in a manner to permit its adjustment axially around the flange. This'ring has a cam-surface 86 projecting beyond one of its edges, and the cam-surface has a portion 87A extending toward the centenof the ring.

so located in connection with the flange 54 that the cam-,surface 89 will engage the stud 7 5, and the ring 82 is located in connection with the flange 54 at its outer. edge.- The bar 12 of the bracket has its upper portion provided with a rectangular opening 92.

To the free end of the arm 32 is pivoteda rod 93 and a spring 94 has one end connected to the rod, and its other end to the arm. To the upper end of the rod 93 isf's'ecured a floating dog comprisng the front plate 95, a rear plate 96, and a stem 97 connecting the plates. The stem is located in the rectangular opening 92 in the upper portion of-the bar 12. The rear late 96 is located beneath the studs 76 and 7 depend ing from the branch 74 of the bell-crank lever.

In Figs. 1, 4, 5, 6, and 7 the parts are in the positions they occupy whenthe sleeve and drill-spindle are elevated, the tool, and the bevel toothed gears and 56 are rotating idly and the clutch between the bevel toothed-wheels' and 56 stands free of both wheels. f v

The operation of the gearing is asfollows: The worm30 is elevated into engagement with the worm-wheel 2O by moving the handle 98 upwardly, the latch will hold the worm in such engagement as before described. A connection is thus formed between the main driving shaft2 and the tool support, and the'main shaft will impart a slow downward movementto the tool support, such as is necessary in drilling or other work the tool may be required to do. The upward movement of the worm will carry the arm 32 upward, and will elevate the floating dog through its rod connection with the arm. The stud 76 of the bell-crank resting on the upper edge of the rear plate 96 of the floatingdog forms a connection between the floating dog and bell-crank lever, and when the floating dog is elevatedV the bell-crank lever will be rocked, which will movel the clutch located between the bevel' toothed-wheels and 56 so that its toothed the bevel toothed-wheel l55 as shown at Fig.

13. This connection will impart a rotary movement through 'the spur toothed-wheel 53 and pinion 19 to thefeed-shaft 8, and

through the pir-.ion 9 to the toothedaack 7 of the sleeve in a downward direction.' The gearpconnection between the pulley and sleeve is such'that the sleeve'will have a quick downward movement, and the clutch connection with the worm-wheel on the feedshaft L8 will click ahead of the worin-wheel. As the toothed-wheel I.S3-is given a partial rotation during the quick downward moveinentof the tool support the rings 82, 83 and 84 will be carried with it. The ring 82 is adjusted in connection with the flange 54 Aof the toothed-wheel so that when 'the tool holder has descended the proper distance,

the cam-surface 86 ofthe ring will engage 4 the -rear plate '96 of the floating dog and'.

move theupper end of the floating dog so that'the rear, plate of the floating dog will move 'free of the stud 76 thereby allowing the bell-crank to descend until the stud 77 rests vin contact with theupperledge of the rear plate 96 of the floating dog as shown at Fig. 14. This movement of the bell-crank will move the clutch llocated, between thel bevel toothed-wheels 55 and 56 free 'of the bevel toothed-wheel 55, which will break the driving connectionA with' the toothedwheel 53, and stop the quick descending movement of lthe sleeve. The sleeve, vwill carry the tool downward slowly through its connection with the worm-wheel 20, which will move the toothed-wheel 53 slowly in the 4same direction it was moving -while a quick movement was being imparted to the tool support. j A A When thetool has finished its work, the projection 91 carriedby the ring 84 will engage the upper end 34 of the latch and move the latch sufficiently to release its lower hooked end 35-fro1n engagement with the arm32, thereby permittmg the `arm 32'to drop, carrying the worm 30 with it, which will disengage the worm from the wormwheel 20 andjstop thel slow downward moveinent of the to'o'l'; This dropping movement of thearm 32 `wi`ll carry the floating dog with" it, thereby permitting the 4bell crank' to move which will move the clutch located between the bevel toothed-wheels 55 and 56 into engagement with lthe teeth 100 of the bevel-toothedwheel 56, thereby forming a connection between the pulley 60- and the sleeve, which will move the .toothed-wheelA 53 in a` direction opposite to that at which it was previously moving as shown at Fig.

15. This movement of the toot-hed wheel 53, will through its gear connection with the sleeve impart a quick return movement to the sleeve until the 'cam-surface 89 of the rin 83 comes in contactfwvith --the stud 75, which will move the bell-crank, and through it move the clutch from engagementwith the bevel toothed-wheel into a position Where it. will lic free of both bevel toothed-wheels 5:5 and 50 and vfill remain al' rest. Upon the last movement being imparted to the belll crank the stud T5 n'ill be elevated sulliciently AThe spring T0 is employed to move the clutch from its engagement with the bevel toothed- Wheel into engagement with the bevel toothed-wheel 50. The cani-surface ST on 4the ring 89 will engage the screnv 8l and .move the bell-crank, should the spring 79 fail to move it. By this arrangement the tool is given a quick advance to the Work, a 'slow movement While doing its Work, and a quick return after the Work has been com'- pleted. lt is only necessary toraise the handle 98 to start the mechanism in operation, when the various movements are auto-v matically accomplished. .By pressing doivn on the handle 30 extending from the latch, the tool siipport can be instantly returned to its normal or starting position.

To tle top bar 14 of the bracketl is pivoted a lever 101 having a cam-notch 102 in its front edge. By means of this lever the projection 71 extending from the arm 70 will be received in the cam-notch which ivill hold the sliding clutch free of both wheels and 56 When the sleeve and drill spindle can be `reciprocated by means of the hand Wheel 10.

The set screw 103 limits the downward movement of the Worm support.

I claim as my invention.

l. ln a drilling machine, the combination with a rotatable tool carrier, of a feeding device therefor, means for effecting a working feed of the device, and mechanism associated with said device for feeding and rcturniiig the carrier at an accelerated speed, said mechanismincluding one means separate from the Werking feed means for feeding, and another means separate from the -Working feed means for returning the same.

2. -In a drilling machine, the combination with a `rotatable tool carrier, of a feed shaft therefor, means for effecting a Working feed of the shaft, and mechanism associated there- -with for feeding and returning the carrier at an accelerated speed, said mechanism including separate devices independent of the lWorking feed means for respectively feeding and returning the tool carrier, and means y for alternately connecting' the devices with the shaft.

3. In a drilling machine, the combination' with a rotatable tool carrier, of a feed shaft geared to the tool carrier, av device for automatically rotating the shaft in one direction, anotlierydevice for automatically rotating the shaft in an opposite direction,

the devices with the shaft.

i. li; a drilling machine, the combination ivilh a rota able tool carrier, of a feed shaft. geared thereto, means for effecting a working feed of the shaft, and mechanism for 'feeding and returning the tool carrier at an accelerated speed including oppositely rotating devices separate from the working feed means, and means automatically operated by the mechanism when the tool cai'- rier reaches predetermined positions for operatively connecting one device to the carrie 5. ln a drilling machine, the combination with a rotatable tool'carrier, of means for elfecting a working feed of the carrier, and mechanism for feeding and returning the tool carrier at an accelerated speed including a shaft, oppositely rotating devices associated with the shaft, and means controlled by the operation of the shaft for operativelyY connecting eitliei' device to the shaft.

(i. In a drilling machine, the combination with a rotatable tool carrier, of means for effecting a Working feed of the carrier, and mechanism for feeding and returning the tool carrier at an accelerated speed, said mechanism including a shaft separate from the working feed means, 'gears loosely mounted thereon, means for continuously rotating the gears in opposite direct-ions, and means for connecting either gear to the shaft.

7. In a drilling inachinein combination, ay 'rotatable drill spindle, means for feeding and returning said spindle, means for accelerating the feeding of said spindle, manually controlled means for effecting the feeding of said spindle at one speed, and causing its feed at an accelerated speed, automatic means for effecting .the return of said spindle at an accelerated speed, and manually controlled means for disengaging said feeding means and effecting the 'return of said spindle at an accelerated speed, and manually cont-rolled means fordisengaging said spindle feeding and returning means whereby to hold the spindle. in one position.

8. In a drilling machine, thecombination with a rotatable tool carrier, of ai feed shaft therefor, means for effecting a Working-feed of the shaft, separate devices independent of the working feed means for respectively effecting an accelerated feed and return of the carrier, means for operating said devices, and means for connecting either device to the shaft.

9. In a drilling machine, in combination, a rotatable and longitudinally movable drill spindle, ai feed shaft for the spindle, a Worm Wheel loosely mounted on the feed shaft, a clutch connection between the worm Wheel and feed shaft to permit the shaft to over-run the worin wheel, a worm held normally out of engagement with the worm wheel but capable of beingplaced in engagementtherew-ith, means for rot-ating the worm, a quick `feed mechanism and a quick return mechanism havin a detachable connection with the f eed shaft, means for simultaneously placing -the quick feed mechanism in engagement with the feed shaft and the worm in engagement with the Worm wheel, and devices carried by said quick feed mechanism for automatically determining the length of the movements of the/ spindle.

10. In a drilling machine, in combination, a rotatable and longitudinally movable drill spindle, a feed shaft for thepindle, a worm wheel loosely.,mountedr on the feed shaft, a clutch connection between the worm wheel and feed shaft to permit the shaft to overrun the worm wheel, a worm held`normally out of engagement with the worm wheel but capable o being placed in engagement therewith, means for rotating the worm, a quick feed mechanism and a quick return mechanism having a detachable connection with the feed shaft, means for simultaneously placingI the quick feed mechanism in engagementwith'the feed shaft and the worm in .engagement with the worm wheel, and adjustable devices carried by said quick feed mechanism -for automatically determining the length ofthe movements of thspindle.

11. Ina drilling'inachine, in combination, a rotatable andlongitu'dinally movable drill spindle, a-feed shaft for the spindle, a worm `wheel loosely mounted on the feed shaft, a

clutch connection between the vworm wheel and feed shaftto, permit theshaft to overrun the worm wheel, a worm journaled in a movable supportA and held normally* out of engagement withthe worm wheel 'but capable o being .placed 'vin-engagement therewith, means for. rotatin the worm, a secondary shaft located ,para lel with the feed lhaft, a pinion lfixedly connected -to the feed shaft,

-a spur-toothed wheel loosely mounted on the secondaryshaft and 'meshing with the lastmentioned pinion, a double faced clutch splined on the secondary shaft, two beveled toothed wheels loosely mounted on the secondary shaft and located on each side of the clutch section and each provided with a clutchface, a bevel .toothed pinion meshiig with bothl of the beveltoothed wheels, means for turning said bevel toothed pinion, means -coniiecting'the worm support and the clutch section for effecting an enga ement between apair of clutch members, an means carried f by the spur toothed wheel foimoving the clutch section.,

i2. rn a (i1-imag maninathe combination with a rotatable spindle, ofa shaft .geared to the 4tool"spindle*to reciprocate the 'mechanism for feedin same, oppositely .rotating gear wheels loosely mounted on the shaft, clutch means forv connecting eithergear wheel to the shaft, `means controlled by the operation of the shaft for controlling the clutchmeaDS, and driving means geared to bot-h wheels and continuously rotating the same in opposite directions. f '4" with a rotatable and reciprocatory tool spindle, of a feed shaft therefor, a counter shaft geared/fo the feed shaft, ears loosely. journaled on the coiintershaft, driving.v means ./continuously rotating said gears in opposite directions, a clutch vrmember located between the gears for connecting either to the countershaft, andnieans controlled by the operation of the machine for-shifting the clutch member.

14. In a drilling machine, the combination with'a rota-table tool` carrier, of means for effecting a working feed of the carrier, and returning the carrier at an accelerate speed, said mechanism including one means for feeding andanother means for returning the carrier, and

devices -automatically operated upon the feed movement of the tool carrier for effecting the change from one to theother.

15. In a dri-lling machine, thecombination with a rotatable tool carrier, of means for effecting a. orking feed of the carrier, and

(l mechanism or feeding and returning the Y ca r atan accelerated speed including separate oppositely'operating devices, and

means automatically operated upon the movement of the tool carrier for connecting one ofthe devices to and disconnecting the other from the tool carrier.

' 16. In a drilling machine, the combinationv with arotatable'and reciprocatory tool spindle, of a shaft geared thereto, means for effecting a working feed of the spindle, clutch elements rotatably mounted on the shaft, means for continuously rotating said clutch elements in opposite directions, an-

other clutch element rotatable Awith andk from the feedto the return device.

- ,18. .In a drilling machine, the' combination with'reciprocatory and rotatable tool carrier,'of-ifneansl for feeding the vtool carrier at a working speed, mechanism for feeding and returning 'the tool carrier at an accelerated speed including separate oppositely moving devices and means operated by said mechanism for disconnecting one device from and connecting the other to the tool carrier.

19. In a drilling machine, the combination with a rotatable and reciprocatory tool carrier,`of means for feeding the tool carrier at a working speed, mechanism for .feeding and returning the tool carrier at an accelerated speed including separate oppositely moving devices, a shliftable clutch element for connecting either device to the tool carrier, and

' means operated by said mechanism for autoand movable into engagement with both, and

Ymeans operated by the mechanism for aut'omatically shifting the clutch element.

2l. In a drilling machine, the combination with a rotatable and reciprocatory tool spin.- dle, of means for feeding the same at a working speed, means-for feeding the same at an accelerated speed, means for returning the spindle at an accelerated speed, and automatic mechanism controlled by the operation of the machine foi` effecting the following operations in the ordernamed, to-wit: disconnecting the accelerated feed means from the tool spindle, disconnecting the Working feed mechanism from the tool 'spindle, connecting the accelerated return means to the tool spindle, and disconnecting theA same therefrom. l

22. In a drilling machine, the combination with a rotatable and reciprocatory tool spindie, of means for feeding the same at a Working speed, means for feeding the same at an accelerated speed, means for returning the spindle at an accelerated speed, auto-.

matic mechanism controlled by the operation of the machine for effecting the following operations in the order named, to-wit: disconnecting the accelerated Vfeed means from the tool spindle, disconnecting the working feed mechanism from the toQl. spindle, connecting the accelerated return means tothe tool spindle, and disconnecting. the A,same

therefrom, and'manually operated means for connecting the working speed feedmechanism and the accelerated speed feed means to the spindle.

23.* In a drilling machine, in combination, a rotatable and longitudinally movable drill spindle, automatic quick feeding means and work feeding and.quick returning means for the spindle, means for imparting movement to said quick. feeding and returning means,

spindle at an accelerated speed, manually operated mechanism for simultaneously connecting the accelerated speed feed mechanism and working speed feed means to the tool spindle, and automatic means controlled by the operation of thel machine for successively disconnecting said mechanism' and means therefrom.

25. In a drilling machine, the combination with a tool spindle, of means for effecting the feed of the same at a working speed, oppositely operating' actuating devices, a clutch element for connecting either device to the spindle, manually operated means for moving the clutch element to connect one device to .the spindle, and mechanism automatically operated by the machine for moving the clutch to disconnect said device and afterward connect the other device to the tool spindle.

26. In a drilling machine, the combination with a reciprocatory and rotatable tool spindle, of means for feeding the same at a working speed, oppositely operating actuating devices, a clutch element for connecting either device to the spindle, manually operated means for moving the clutch element to l connect the working feed means and one device to the spindle, automatic mechanism .for moving the clutch to disconnect said. de-

vice While the working feed means is still connected to the spindle, and means for automatically ldiscnnnecting the working feed'means, said mechanism automatically connecting the other device to the spindle after theworking feed means has been disconnected therefrom.

27. In a drillingmachine, the combination with a rotatable and reciprocatory tool spindle, of oppositely rotating devices for moving the same in Aopposite directions, a clutch element for. connecting either device to the spindle, an arm for moving the clutch element, and rotatable devices coperating with and cont-rolling the osition of the arm.

28. In a drilling mac ine, the combina- .tion with a rotatable and reciprocatory tool spindle, of means for feeding the same ata working speed, means for feeding and relao ' and rotatable With the drum, said devices engaging the crank to determine its position and consequently the position of the clutch element.

29. In a drilling machine, the combination with a tool spindle, of a feed shaft geared. thereto, means for operating the feed shaft to eect a Working feed of the s indle, gearing connected to the feed shaft, riving mechanism detachably engagingtheA gearing for effecting thel feed and return of the spin; dle-at an accelerated speed,'and means operated bythe gearing for automatically govcrning the operation ofthe accelerated feed mechanism, said gearing transmitting mo tion from the mechanism to the shaft and also transmitting motion from the shaft to the controlling means.

30. Inv a drilling machine, the combination 'with a tool spindle, of a feed shaft geared thereto, means for operatingl the f eed shaft t0 effect a Working feed of the spindle, driving mechanism for effecting the feed and returnof vthe spindle at an accelerated speed, gearing connecting said mechanism with the shaft, and means operated by the t gearing for automatically governing the operation of the accelerated feedv mechanism, said gearing alternately transmitting motion from the mechanism to the shaft and, from the shaft to die automatically governing means.

' v JOSEPH P. BARNES. vWitnesses: l i 1 W. F.. BARNES, y A. O. BEHEL. 

